Automation System of Water Circulation and Fish Feeding in Tilapia Fish Pond with Solar Panel Source
DOI:
https://doi.org/10.59890/ijarss.v2i10.2592Keywords:
Tilapia, Feeding, Water Circulation, Automation, Solar Panel SourceAbstract
Tilapia cultivation requires good management of water quality and proper feeding to ensure optimal fish growth. One of the main challenges in this process is maintaining the water pH level within ideal limits and providing feed according to the needs of the fish based on their size. In addition, limited access to electricity in some locations makes fish pond management less efficient. This study aims to design an automated water circulation system that is regulated based on the water pH level and automatic feeding according to the needs of the fish, by utilizing solar panels as a power source. This system uses a pH sensor to monitor water conditions in real time and regulate water circulation to maintain ideal pH levels. Feeding is regulated based on the size and number of fish to ensure optimal feed efficiency and fish growth. This system is powered by solar panel energy, so it can operate independently without relying on conventional electricity networks. Test results show that the system is able to maintain water pH stability and automate feeding with high accuracy, while utilizing renewable energy effectively. The use of solar panels not only reduces dependence on electricity, but also reduces operational costs and supports environmental sustainability. This system is expected to increase the efficiency and productivity of tilapia cultivation, especially in areas with limited access to electricity.
References
Adi, C. P., & SURYANA, A. (2023). Pola Pertumbuhan Ikan Nila Oreochromis Niloticus di Fase Pendederan. KNOWLEDGE: Jurnal Inovasi Hasil Penelitian dan Pengembangan, 3(2), 147-158.
Al Rasyid, M. U. H., Mubtadai, N., Sukaridhoto, S., Ardianto, R., Fahmi, N., Nugraha, A., & Faisal, M. (2021). Water quality monitoring system in aquaculture environment based on internet of things.
Andriani, Y. (2018). Budidaya Ikan Nila: Deepublish.
Azhari, D., & Tomasoa, A. M. (2018). Kajian kualitas air dan pertumbuhan ikan nila (Oreochromis niloticus) yang dibudidayakan dengan sistem akuaponik. Akuatika Indonesia, 3(2), 84-90.
Damanik, T., & Silaban, S. (2023). PENERAPAN SOLAR CELL 200 WP LISTRIK PADA LISTRIK RUMAH TANGGA. SINERGI POLMED: Jurnal Ilmiah Teknik Mesin, 4(1), 8-13.
Dwisari, V., Sudarti, S., & Yushardi, Y. (2023). PEMANFAATAN ENERGI MATAHARI: MASA DEPAN ENERGI TERBARUKAN. OPTIKA: Jurnal Pendidikan Fisika, 7(2), 376-384.
Efendi, M. T. N., Sulistiyowati, I., Syahrorini, S., & Anshory, I. (2024). Designing a Monitoring System and Optimizing Water Quality in Tilapia Farming Ponds in Phokecik Hamlet Using Ubidots. Buletin Ilmiah Sarjana Teknik Elektro, 6(1), 34-44.
Nurdina, A. K., Sasmito, A. P., & Vendyansyah, N. (2022). Penerapan Internet of Things (Iot) Monitoring Dan Controlling Perawatan Anakan Ikan Koi Berbasis Website. JATI (Jurnal Mahasiswa Teknik Informatika), 6(2), 1115-1122.
Pulungan, A. B., Putra, A. M., Hamdani, H., & Hastuti, H. (2020). Sistem kendali kekeruhan dan pH air kolam budidaya ikan Nila. ELKHA: Jurnal Teknik Elektro, 12(2), 99-104.
Satria, H. (2023). Aplikasi Arduino Dan Sensor. Insight Mediatama.
Sholikin, N., Rozaq, I. A., Iqbal, M., & Setyaningsih, N. Y. D. (2021). Kontrol Kadar Ph Dan Ketinggian Air Pada Kolam Ikan Nila Berbasis IOT. Jurnal Elektro Kontrol (ELKON), 1(1), 1-8.
Widharma, I. S., Sunaya, I. N., Sajayasa, I., & Sangka, I. (2020). Perancangan Plts Sebagai Sumber Energi Pemanas Kolam Pendederan Ikan Nila. Jurnal Ilmiah Vastuwidya, 3(2), 38-44.
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